Title : ( On the effects of photoionization feedback on second-generation star formation in globular clusters of different masses )
Authors: Asiyeh Yaghoobi , F. Calura , Sareh Ataiee torshizi ,Abstract
We simulate the formation of second-generation stars in young clusters with masses of 105 and 106 M⊙ within 30 − 100 Myr after −24the formation of clusters. We assume the clusters move through a uniform interstellar medium with gas densities of 10 and −23 −310 g cm and consider the stellar winds from asymptotic gian branch (AGB) stars, gas accretion onto the cluster, ram pressure, star formation, and photoionization feedback of our stellar systems including binary stars. We find that second generation (SG) 6stars can be formed only within the 10 M⊙ cluster in the high-density simulation, where the cluster can accrete sufficient pristine gas from their surrounding medium, leading to efficient cooling required for the ignition of SG formation and sufficient dilution of the AGB ejecta. Hence, our results indicate that a denser environment is another requirement for the AGB scenario to explain the presence of multiple populations in globular clusters. On the other hand, the ionizing feedback becomes effective in heating the gas in our low-density simulations. As a result, the clusters cannot accumulate a considerable amount of pristine gas at their center. The gas mass within the clusters in these simulations is similar to that in young massive clusters (YMCs). Hence, our studies can provide a possible reason for the lack of gas, star formation, and SG stars in YMCs. Our results indicate that the ionizing stellar feedback is not a severe problem for SG formation; rather, it can help the AGB scenario to account for some observables.
Keywords
, Globular clusters: general , stars: formation , methods: numerical , hydrodynamics , radiative transfer , Young , massive clusters: general@article{paperid:1096856,
author = {Yaghoobi, Asiyeh and فرانچسکو کالورا and Ataiee Torshizi, Sareh},
title = {On the effects of photoionization feedback on second-generation star formation in globular clusters of different masses},
journal = {Monthly Notices of the Royal Astronomical Society},
year = {2024},
volume = {528},
number = {4},
month = {February},
issn = {0035-8711},
pages = {5477--5486},
numpages = {9},
keywords = {Globular clusters: general - stars: formation - methods: numerical - hydrodynamics - radiative transfer - Young - massive clusters: general},
}
%0 Journal Article
%T On the effects of photoionization feedback on second-generation star formation in globular clusters of different masses
%A Yaghoobi, Asiyeh
%A فرانچسکو کالورا
%A Ataiee Torshizi, Sareh
%J Monthly Notices of the Royal Astronomical Society
%@ 0035-8711
%D 2024